Optoelectronics
Selector Guide & Cross Reference
MOTOROLA
cu acw ,v.ONDUCTOR DEVICES (PTY) LTD.
JOHANNESBURG 2000
TEL. 802-5820
^2
Highlights
riety of optoelectronic device functions, and you find a
capability to meet whatever demands a particular appli-
cation may make. Motorola's new, low-profile, lensed,
Case 349 plastic package, coupled with package-
compatible standard chips including infrared emitters and
detectors (transistors, Darlingtons, PIN diodes, SCR's,
Schmitt triggers, triac drivers, etc.) permits a wide variety
of emitter/detector combinations. This is evidenced by an
extensive line of standard slotted coupler functions al-
ready on the market, with well formed plans for line ex-
tensions in the implementation stage.
See page 12
Digital Optics . . .
Via Schmitt Triggers
Sensitive enough to be compatible with standard logic
circuits, Motorola's new Schmitt trigger optocouplers pro-
vide precision switching and code transmission by means
of light. Wave shaping, A-D conversion, accurate long-
line data transmission and control — all with high optical
isolation, noise-free, trouble-free operation.
See page 10
Motorola reserves the right to make changes to any products herein to im-
prove reliability, function or design Motorola does not assume any liability
arising out of the application or use of any product or circuit described
herein; neither does it convey any license under its patent rights nor the
rights of others
Optoelectronics
Selector Guide
& Cross
Reference
The Motorola Optoelectronics product line consists of gal-
lium-arsenide infrared-emitting diodes, silicon photodetectors,
high-technology optocoupler/isolators, slotted couplers and
fiber optic emitters and detectors.
This Selector Guide and Cross Reference contains summary
specifications for each device in the Motorola optoelectronics
product line.
All devices listed are available direct from Motorola and from
Motorola's authorized distributors. Applications assistance and
information on pricing and delivery are available from your
nearest Motorola sales office.
Contents
Page
Alphanumeric Listing 4
Emitters/Detectors 5
Infrared Emitting Diodes 5
Silicon Photodetectors 5
Photodiodes 5
Photodarlingtons 5
Phototransistors 6
Photo Triac Drivers and SCRs 6
Photo Schmitt Trigger 6
Couplers/Isolators 7
Optocoupler/isolators 7
Transistor Output 7
Transistor Output w/No Base Connection 8
Darlington Output 8
Darlington Output w/No Base Connection 8
Resistor-Darlington Output 8
High Voltage Transistor Output 8
Triac Driver Output 9
SCR Output 9
Schmitt Trigger Output 10
AC Input — Transistor Output 10
AC Input — Linear Amplifier Output 10
VDE Approved Optocouplers 11
Transistor Output 11
Darlington Output 11
Darlington Output w/No Base Connection 11
Triac Driver Output 11
Couplers/Interrupters 12
Slotted Couplers/Interrupter Modules 12
Transistor Output 12
Fiber Optic Components 12
Fiber Optic Devices 12
Infrared Emitters 12
Photodetectors 13
Package Dimensions and Styles 14
Cross- Reference 18
Distributors and Sales Offices 20
3
Alphanumeric Listing
This listing includes all devices in Motorola's Optoelectronics line. CTR, Current Transfer Ratio, is listed for each transistor
and Darlington optocoupler to simplify locating a specific device in the Selector Guide where they are listed in order of ascending
CTR.
Optocoupler, Transistor
4N25
20
7
4N25A
20
7
4N26
20
7
4N27
10
7
4N28
10
7
Optocoupler, Darlington
4N29
100
8
4N29A
100
8
4N30
100
8
4N31
50
8
4N32
500
8
4N32A
500
8
4N33
500
8
Optocoupler, Transistor
4N35
100
7
4N36
100
7
4N37
100
7
Optocoupler, High Voltage Transis-
4N38
4N38A
Optocoupler, SCR
4N39
Optocoupler, Transistor
CNY17-1
CNY17-2
CNY17-3
CNY17-4
H11A1
H11A2
H11A3
H11A4
H11A5
H11A520
H11A550
H11A5100
40
63
100
160
50
20
20
10
30
20
50
100
Optocoupler, AC Input, Transistor
H11AA1
H11AA2
Optocoupler, Darlington
H11B1
H11B2
H11B3
H11B25:
500
200
100
1 00
Optocoupler, SCR
H11C1
H11C2
H11C3
Optocoupler, High Voltage
H11D1
H11D2
H11D3
H11D4
Optocoupler, Resistor Darlington
H11G1
H11G2
H11G3
Optocoupler, Triac Driver
H11J1
H11J2
H11J3
H11J4
H11J5
Optocoupler, Schmltt Trigger
H11L1
H11L2
Optocoupler, SCR
H74C1
Optocoupler, Transistor
IL1
20
7
LIS
10
7
IL74
125
7
Optocoupler, Darlington
MCA230
100
8
MCA231
200
8
MCA255
100
8
Optocoupler, SCR
MCS2
10
Optocoupler, Transistor
MCT2
20
7
MCT2E
20
7
MCT26
6
7
MCT271
45
7
MCT272
75
7
UCT273
125
7
MCT274
225
7
MCT275
70
7
MCT277
40
7
MCT2200
20
7
MCT2201
100
7
Fiber Optics, Detector
MFOD71
MFOD72
MFOD73
MFOD100
MFOD200
MFOD300
MFOD1100
MFOD2202
MFOD2302
MFOD2404
MFOD2405
Fiber Optics, Emitter
MFOE71
MFOE200
MFOE1200
MFOE1201
MFOE1202
MLED15
MLED71
MLED910
MLED930
Optocoupler, Darlington, No Base
Connection
| MOC119 | | 8
Optocoupler, VDE Transistor
MOC601A
MOC602A
MOC603A
MOC604A
Optocoupler, VDE Darlington
MOC622A
MOC623A
MOC624A
MOC625A
Optocoupler, VDE Darlington, No
Base Connection
MOC626A
MOC627A
MOC628A
MOC629A
Optocoupler, VDE Triac Driver
MOC633A
MOC634A
MOC635A
Optocoupler, VDE Triac Driver
Detector, Transistor
MOC640A
11
MOC641A
11
Optocoupler, Transistor
MOC1005
20
7
MOC1006
10
7
Optocoupler, SCR
MOC3002
9
MOC3003
9
MOC3007
9
Optocoupler, Triac Driver
MOC3009
9
MOC3010
9
MOC301 1
9
MOC3012
9
MOC3020
9
MOC3021
9
MOC3022
9
MOC3023
9
MOC3030
9
MOC3031
9
MOC3032
9
MOC3040
9
MOC3041
9
Optocoupler, Schmitt Trigger
MOC5007
MOC5008
MOC5009
Optocoupler, AC Linear Amp.
I MOC5010
Slotted Coupler, Transistor
MOC781 1
MOC7812
MOC7813
MOC7821
MOC7822
MOC7823
Optocoupler, Darlington, No E
Connection
MOC8020
MOC8021
MOC8030
MOC8050
Optocoupler, Transistor
Optocoupler.
Connection
MOC8111
MOC8112
MOC8113
Optocoupler, High
Transistor
MOC8204
MOC8205
MOC8206
Detector, Transistor
MR0150
MRD300
MRD310
Detector, Darlington
MRD360
WRD370
Detector, PIN
MRD500
MRD510
MRD601
6
MRD602
6
MRD603
6
MRD604
6
MRD611
6
MRD612
6
MRD613
6
MRD614
6
MRD701
6
Detector, Resistor Darlington
Detector, PIN
MRD721
Detector, Schmitt Trigger
MRD750
Detector, Triac Driver
MRD730
NIRD740
MRD3010
MRD3011
Detector, Transistor
MRD3050
MRD3051
MRD3054
MRD3055
MRD3056
Optocoupler, Transistor
TIL11I
TIL112
Optocoupler, Darlington
I TIL113
300
Optocoupler. Transistor
TIL114
TIL115
TIL116
TIL117
Optocoupler, Transistor. No Base
Connection
Optocoupler,
Connection
Darlington, No Base
Optocoupler, Transistor
Optocoupler, Darlington
TIL127
300
Optocoupler,
Connection
Darlington, No Base
TIL128
Optocoupler, Transistor
Optocoupler. Darlington
TIL156
| 300
Optocoupler, Darlington, No Base
Connection
4
Optoelectronics — Emitters/Detectors
Infrared Emitting Diodes
Motorola's infrared emitting diodes are made by the liquid phase epi-
taxial process for long life and stability. They provide high power output
and quick response at 930 nm with low input drive current.
POJ
Typ
ri
mA
Emission
Angle
Typ
Peak Emission
Forward
Voltage
@ ' F
Max mA
Case
MLED15
1300
30
145°
930
1.5
30
173-01
Style 2
MLED71
2500
50
60°
940
1.8
50
349-01
Style 1
MLED910
150
50
30°
900
1.5
50
81A-06
Style 2
MLED930
650
100
30°
900
1.5
50
209-01
Style 1
Silicon Photodetectors
A variety of silicon photodetectors are available, varying from simple
PIN diodes to complex, single chip 400 volt triac drivers. They are avail-
able in packages offering choices of viewing angle and size in either
economical plastic cases or rugged, hermetic metal cans. They are spec-
trally matched for use with Motorola infrared emitting diodes.
Photodiodes
Actual Size
Case 81A-06 Metal
Style 2:
Term 1. Anode
2
Actual Size
Case 173-01 Plastic
Style 2:
Pin 1 . Anode
2. Cathode
Actual Size
#
Case 210-01 Metal (Flat Lens)
Style 1 :
Pin 1 . Anode
2. Cathode
Actual Size
Case 82-05 Metal
Style 1 :
Pin 1 . Emitter
2. Base
3. Collector
Actual Size
Case 209-01 Metal
Case 209-02 Metal
(Convex Lens)
Style 1:
Pin 1. Anode
2. Cathode
Actual Size
Case 349-01 Plastic
Style 1 :
Pin 1. Cathode
2. Anode
Style 2:
Pin 1. Emitter
2. Collector
Light Current
V(BR)R
Dark Current
Response
MRD500
9.0
20
5.0
100
2.0
20
1.0
209-02
Convex
Lens
MRD510
2.0
20
5.0
100
2.0
20
1.0
210-01
Flat
Lens
MRD721
4.0
20
5.0
100
10
20
1.0
349-01
Style 1
Photodarlingtons
MRD370
10
5.0
0.5
40
15/40
5.0
1.0
82-05
MRD360
20
5.0
0.5
40
15/65
5.0
1.0
Style 1
MRD711(1)
25
5.0
0.5
60
125/150*
5.0*
349-01
Style 2
(1) Photodarlington with integral base-emitter resistor.
5
OPTOELECTRONICS — EMITTERS/DETECTORS (continued)
Silicon Photodetectors (continued)
Phototransistors
Light Current
mA H
v (BR)CEO
Volts
«r. «f'«on. »off*
<s
MS
MRD150
2.2
20
5.0
40
2.5/4.0
20
1000
173-01
Style 1
IVlHLM I U
3.5
20
5.0
DU
2.0/2.5
20
1000
82-05
MRD300
8.0
20
5.0
50
2.0/2.5
20
1000
Style 1
MRD3050
0.1 Min
20
5.0
30
2.0/2.5
20
1000
MRD3051
0.2 Min
20
5.0
30
2.0/2.5
20
1000
MRD3054
0.5 Min
20
5.0
30
2.0/2.5
20
1000
MRD3055
1.5 Min
20
5.0
30
2.0/2.5
20
1000
MRD3056
2.0 Min
20
5.0
30
2.0/2.5
20
1000
MRD601, 611-
1.5
5.0
20
50
1.5/15
30
800
81A-06*
MRD602, 612*
3.5
5.0
20
50
1.5/15
30
800
Style 1
MRD603, 613'
6.0
5.0
20
50
1.5/15
30
800
81A-07
MRD604, 614*
8.5
5.0
20
50
1.5/15
30
800
Style 1
MRD701
0.5
5.0
0.5
30
1 0/60*
5.0*
349-01
Style 2
Photo Triac Drivers and SCRs*
MRD730
50
400
5.0
349C-01
Style 4
MRD740*
5.0
125
200
Style 5*
MRD3010
5.0
100
250
10
82-05
MRD3011
2.0
100
250
10
Style 3
Photo Schmitt Trigger
Threshold
Current
mA
'Ftoffl
Case
MRD750
20
1.0
0.75
3-15
0.1
349C-01
Style 3
Actual Size
Case 81A-06 Metal (Flat Lens)
Case 81A-07 Metal
Style 1 :
Term 1 . Emitter
2. Collector
Actual Size
Case 82-05 Metal
Style 1:
Pin f. Emitter
2. Base
3. Collector
Style 3:
Pin 1 . Main Substrate
2. Main Substrate
3. Substrate
(do not connect)
Actual Size
Case 173-01 Plastic
Style 2:
Pin 1 . Anode
2. Cathode
Actual Size
Case 349-01 Plastic
Style 2:
Pin 1. Emitter
2. Collector
Actual Size
Case 349C-01 Plastic
Style 3:
Pin 1 . Output
2. Ground
3- V CC
Style 4:
Pin 1 . Main Term #1
2. Substrate
(do not connect)
3. Main Term #2
Style 5:
Pin 1 . Gate
2. Anode
3. Cathode
Optoelectronics — Couplers/Isolators
Optocoupler Isolators
An optocoupler consists of a gallium arsenide infrared emitting
diode, IRED, optically coupled to a monolithic silicon photo-
detector/output device in a light-shielding package. Motorola of-
fers a wide array of standard devices in the popular 6-pin DIP
package and encourages the use of special designs and selec-
tions for special applications. All Motorola optocouplers are UL
Recognized per File Number 54915.
Transistor Output — Style 1
Current Transfer
V|SO
*r. V<on. 'off'
Ratio (CTR)
Volts ac Peak
v CE(sat)
Typ
V(BR)CEO
Volts
VF
Device
% a
Ir
V CE
Volts,
(
=, If
l c
«
R a L I
Volts,
-n If
Min *
? mA
Volts
Industry
Motorola
Max
m A
mA
MS
mA
VoTs
Ma i 1
TIL112
2.0
10
5.0
1500
7500
0.5
50
2.0
2.0
.
2.0
10
100
20
1.5
10
TIL115
2.0
10
5.0
2500
7500
0.5
50
2.0
2.0
2.0
10
100
20
1.5
10
MCT26
6.0
10
10
2500(R)
7500
0.3
20
0.25
2.0
2.0
10
30
1.5
20
TIL111
8.0
16
0.4
1500
7500
0.4
16
2.0
5.0
2.0
10
100
30
1.4
16
TIL114
8.0
16
0.4
2500
7500
0.4
16
2.0
5.0
2.0
10
100
30
1.4
16
4N27
10
10
10
1500
7500
0.5
50
2.0
2.08.0
10
10
30
1.5
10
4N28
10
10
10
500
7500
0.5
50
2.0
2.08.0
10
10
30
1.5
10
4N38.A
10
10
10
2500
7500
1.0
20
4.0
0.8 7.0
10
10
80
1.5
10
H11A4
10
10
10
1500
7500
0.4
10
0.5
2.0
2.0
10
100
30
1.5
10
IL-12
10
10
5.0
1000(D)
7500
0.5
50
2.0
2.0
10
10
20
1.5
10
MOC1006
10
10
10
7500
0.5
50
2.0
2.0 8.0
10
10
30
1.5
10
TIL124
10
10
10
5000
7500
0.4
10
1.0
2.0
2.0
10
100
30
1.4
10
TIL1 53
10
10
10
3540
7500
0.4
10
1.0
2.0
2.0
10
100
30
1.4
10
IL-74
12.5
16
5.0
1500(D)
7500
0.5
16
2.0
6.0* 25*
5.0*
2.4k*
16'
20
1.3
100
4N25.A
20
10
10
2500
7500
0.5
50
2.0
0.8 8.0
10
10
30
1.5
10
4N26
20
10
10
1500
7500
0.5
50
2.0
0.8 8.0
10
10
30
1.5
10
H11A2
20
10
10
1500
7500
0.4
10
0.5
2.0
2.0
10
100
30
1.5
10
H11A3
20
10
10
2500
7500
0.4
10
0.5
2.0
2.0
10
100
30
1.5
10
H11A520
20
10
10
5656
7500
0.4
20
2.0
5.0*
2.0*
10*
100'
30
1.5
10
IL-1
20
10
10
2500(D)
7500
0.5
16
1.6
6.0" 25"
5.0'
2.4k*
16'
30
1.5
60
MCT2
20
10
10
2500(R)
7500
0.4
16
2.0
10" 30"
5.0*
2.0k*
15'
30
1.5
20
MCT2E
20
10
10
3000(R)
7500
0.4
16
2.0
2.6
2.0
10
100
30
1.5
20
MCT2200
20
10
5.0
7500
7500
0.4
10
2.5
6.075.5"
2.0"
10*
100*
30
1.5
60
MOC1005
20
10
10
7500
0.5
50
2.0
0.8-8.0
10
10
30
1.5
10
TIL116
20
10
10
2500
7500
0.4
15
2.2
5.0
2.0
10
100
30
1.5
60
TIL125
20
10
10
5000
7500
0.4
10
1
2.0
2.0
10
100
30
1 .4
10
TIL154
20
10
10
3540
7500
0.4
10
1.0
2.0
2.0
10
100
30
1.4
10
H11A5
30
10
10
1500
7500
0.4
10
0.5
2.0
2.0
10
100
30
1.7
10
MCT277
40
16
0.4
3000(R)
7500
15*
2.0*
5.0*
100'
30
1.5
20
CNY17-1
40-80
10
5.0
7500
7500
0.4
10
2.5
5.674.1"
5.0*
75*
10*
70
1.65
60
MCT271
45-90
10
10
3000(R)
7500
0.4
16
2.0
4.974.5"
2.0*
5.0*
100*
30
1.5
20
MOC8100
50
1.0
5.0
7500
0.5
1.0
0.1
20'
2.0*
10*
100*
30
1.4
1.0
H11A1
50
10
10
2500
7500
0.4
10
0.5
2.0
2.0
10
100
30
1.5
10
H11A550
50
10
10
5656
7500
0.4
20
2.0
5.0'
2.0*
10*
100
30
1.5
10
TIL117
50
10
10
2500
7500
0.4
10
0.5
5.0
2.0
10
100
30
1.4
16
TIL126
50
10
10
5000
7500
0.4
10
1.0
2.0
2.0
10
100
30
1.4
10
TIL155 '
'50
10
10
3540
7500
0.4
10
1.0
2.0
2.0
10
100
30
1.4
10
CNY17-2
63-125
10
5.0
5000
7500
0.4
10
2.5
5.674.1'
5.0*
75*
10'
70
1.65
60
MCT275
70-210
10
10
3000(R)
7500
0.4
16
2.0
4.573.5'
2.0*
5.0*
100*
80
1.5
20
MCT272
75-150
10
10
3000(R)
7500
0.4
16
2.0
6.075.5'
2.0"
5.0*
100*
30
1.5
20
4N35
100
10
10
3500
7500
0.3
10
0.5
4.0*
2.0*
10*
100*
30
1.5
10
4N36
100
10
10
2500
7500
0.3
10
0.5
4.0'
2.0*
10*
100*
30
1.5
10
4N37
100
10
10
1500
7500
0.3
10
0.5
4.0*
2.0*
10'
100*
30
1.5
10
H1 1A5100
100
10
10
5656
7500
0.4
20
2.0
5.0*
2.0*
10*
100*
30
1.5
10
MCT2201
100
10
5.0
7500
7500
0.4
10
2.5
6.075.5'
2.0*
10*
100*
30
1.5
60
CNY17-3
100-200
10
5.0
5000
7500
0.4
10
2.5
5.674.1*
5.0*
75'
10*
70
1.65
60
MCT273
125-250
10
10
3000(R)
7500
0.4
16
2.0
7.676.6'
2.0*
5.0*
100'
30
1.5
20
CNY17-4
160-320
10
5.0
4000
7500
0.4
10
2.5
5.674.1*
5.0*
75'
10'
70
1.65
60
MCT274
225-400
10
10
2500(R)
7500
0.4
16
2.0
9.177.9*
2.0*
5.0*
100'
30
1.5
20
(R) = RMS (D) = DC 'ton. toff
Style 1:
Pin 1. Anode
2. Cathode
3. NC
4. Emitter
5. Collector
6. Base
CASE 730A-01
OPTOELECTRONICS — COUPLERS/ISOLATORS (continued)
Optocoupler Isolators (continued)
Transistor Output with No Base Connection — Style 3
CASE 730A-01
Style 1 :
Style 3:
Pin 1.
Anode
Pin 1.
Anode
2.
Cathode
2.
Cathode
3.
NC
3.
NC
4.
Emitter
4.
Emitter
5.
Collector
5.
Collector
6.
Base
6.
NC
Device
Current Transfer
Ratio (CTR)
VlSO
Volts ac Peak
VCE(sat)
«r. tf/ton, t ff*
Typ
v (BR)CEO
Volts
Min
v F
% @'F
Min mA
VCE
Volts
Industry
Motorola
Volts,, lc
@
Max mA
•c
mA
@ 'c
lis mA
vcc
Volts
n
If
mA
Volts @ l F
Max mA
TIL113
MOC81 1 1
MOC8112
MOC8113
10
20
50
100
10
10
10
10
5.0
10
10
10
1500
7500
7500
7500
7500
0.5
0.4
0.4
0.4
50
10
10
10
2.0
0.5
0.5
0.5
2.0
20" m
20'm
20*m
2.0
2.0-
2.0'
2.0*
10
10*
10'
10*
100
100'
100*
100*
20
30
30
30
1.5
1.5
1.5
1.5
10
10
10
10
Darlington Output — Style 1
4N31
50
10
10
1500
7500
1.2
8.0
2.0
2725*
50*
10*
200*
30
1.5
10
4N29.A
100
10
10
2500
7500
1.0
8.0
2.0
2725*
50*
10*
200*
30
1.5
10
4N30
100
10
10
1500
7500
1.0
8.0
2.0
2725*
50*
10*
200*
30
1.5
10
H11B3
100
1.0
5.0
2500
7500
1.0
1.0
1.0
1257100*
10*
10*
100*
25
1.5
50
H11B255
100
10
5.0
1500
7500
1.0
50
50
1257100*
10*
10*
100*
55
1.5
20
MCA230
100
10
5.0
4000(D)
7500
1.0
50
50
10/35
10
100
50
30
1.5
20
MCA255
100
10
5.0
4000(D)
7500
1.0
50
50
10/35
10
100
50
55
1.5
20
H11B2
200
1.0
5.0
2500
7500
1.0
1.0
1.0
1257100 -
10*
10*
100*
25
1.5
10
MCA231
200
1.0
1.0
4000(D)
7500
1.2
10
50
80
10
10
100
30
1.5
20
TIL113
300
10
1.0
1500
7500
1.0
50
125
300
125
15
100
30
1.5
10
TIL127
300
10
1.0
5000
7500
1.0
50
125
300
125
15
100
30
1.5
10
TIL156
300
10
1.0
3535
7500
1.0
50
125
300
125
15
100
30
1.5
10
4N32.A
500
10
10
2500
7500
1.0
8.0
2.0
2*-60*
50*
10*
200*
30
1.5
10
4N33
500
10
10
1500
7500
1.0
8.0
2.0
2* 60*
50*
10*
200*
30
1.5
10
H11B1
500
1.0
5.0
2500
7500
1.0
1.0
1.0
1257100*
10*
10*
100*
25
1.5
10
Darlington Output with No Base Connection — Style 3
MOC119
300
10
2.0
7500
1.0
10
10
10/50
2.5
10
100
30
1.5
10
TIL119
300
10
2.0
1500
7500
1.0
10
10
300
2.5
10
100
30
1.5
10
TIL128
300
10
2.0
5000
7500
1.0
10
10
300
2.5
10
100
30
1.5
10
TIL157
300
10
2.0
3535
7500
1.0
10
10
300
2.5
10
100
30
1.5
10
MOC8030
300
10
1.5
7500
13*/60*
so-
100*
10*
80
2.0
10
MOC8020
500
10
5.0
7500
13760'
so-
100*
10-
50
2.0
10
MOC8050
500
10
1.5
7500
13*/60*
so*
100*
10*
80
2.0
10
MOC8021
1000
10
5.0
7500
13760*
50*
100*
10*
50
2.0
10
Resistor-Darlington Output — Style 1
H11G1
1000
10
1.0
3535
7500
1.0
1.0
1.0
5.0/100
5.0
100
10
100
1.5
10
H11G2
1000
10
1.0
3535
7500
1.0
1.0
1.0
5.0/100
5.0
100
10
80
1.5
10
H11G3
200
1.0
5.0
2125
7500
1.2
50
20
5.0/100
5.0
100
10
55
1.5
10
High Voltage Transistor Output — Style 1
MOC8204
20
10
10
7500
0.4
10
0.5
5.0-
2.0*
10*
100*
400
1.5
10
MOC8205
10
10
10
7500
0.4
10
0.5
5.0*
2.0-
10*
100*
400
1.5
10
MOC8206
5.0
10
10
7500
0.4
10
0.5
5.0*
2.0*
10*
100*
400
1.5
10
H11D1
20
10
10
3500
7500
0.4
10
0.5
5.0-
2.0-
10*
100*
300
1.5
10
H11D2
20
10
10
2500
7500
0.4
10
0.5
5.0*
2.0'
10*
100*
300
1.5
10
H11D3
20
10
10
2500
7500
0.4
10
0.5
5.0-
2.0*
10*
100*
200
1.5
10
H11D4
10
10
10
2500
7500
0.4
10
0.5
5.0*
2.0'
10*
100*
200
1.5
10
4N38
10
10
10
1500
7500
1.0
20
4.0
0.8/7.0
10
10
80
1.5
10
4N38A
10
10
10
2500
7500
1.0
20
4.0
0.8/7.0
10
10
80
1.5
10
MCT275
70-210
10
10
3000(R)
7500
0.4
16
2.0
4.573.5*
2.0*
5.0*
100*
80
1.5
20
(R) = RMS (D) = DC -ton, lot,
OPTOELECTRONICS — COUPLERS/ISOLATORS (continued)
Optocoupler Isolators (continued)
Triac Driver Output — Style 6
Style 6:
Style 7:
Pin 1.
Anode
Pin 1.
LED Anode
T?
2.
Cathode
2.
LED Cathode
3.
NC
3.
NC
4.
Main Terminal
4.
SCR Cathode
5.
Substrate
5.
SCR Anode
CASE 730A-01
6.
Main Terminal
6.
SCR Gate
LED Trigger
Zero Crossing
Surge Isolation
Pfaalr Rlnrkinn
v uudye
Mln
Current-lpT
Inhibit Voltage
Voltage
(V T M ■ 3.0 V)
(at rated Ipr)
Vac pk Mln
dv/dt
uevice
m A Max
Volts Max
Industry
Motorola
V/iaS TVD
H1 1J1
250
10
5656
7500
2.0
H11J2
250
15
5656
7500
2.0
H11J3
250
10
3535
7500
20
H11J4
250
15
3535
7500
2.0
H11J5
250
25
2120
7500
2.0
MOC3009
250
30
7500
2.0
MOC3010
250
15
7500
2.0
MOC3011
250
10
7500
2.0
MOC3012
250
5.0
7500
2.0
MOC3020
400
30
7500
10
MOC3021
400
15
7500
10
MOC3022
400
10
7500
10
MOC3023
400
5.0
7500
10
MOC3030
250
30
25
7500
100
MOC3031
250
15
25
7500
100
MOC3032
250
10
25
7500
100
MOC3040
400
30
40
7500
100
MOC3041
400
15
40
7500
100
SCR Output — Style 7
LED Trigger
Surge Isolation
Peak Blocking
Current-lpT
Voltage
Voltage
(V AK = 50 V)
Vac pk Mln
dv/dt
Device
Mln Volts
mA Max
Industry
Motorola
V//is Typ
4N39
200
30
1500
7500
500 Min
H11C1
200
20
3535
7500
500 Min
H11C2
200
20
2500
7500
500 Min
H11C3
200
30
2500
7500
500 Min
H74C1
200
fTTL drive)
2500
7500
MCS2
200
14(V AK = 100)
3000 RMS
7500
MOC3002
250
30
7500
500
MOC3003
250
20
7500
500
MOC3007
200
40
7500
500
9
OPTOELECTRONICS — COUPLERS/ISOLATORS (continued)
Optocoupler/lsolators (continued)
CASE 730A-01
Style 5:
Pin 1 . Anode
2. Cathode
3. NC
4. Output
5. Ground
6. V CC
Style 8:
Pin 1 . LED 1 Anode/LED 2 Cathode
2. LED 1 Cathode/LED 2 Anode
3. NC
4. Emitter
5. Collector
Schmitt Trigger Output — Style 5
Threshold Current ON
Threshold Current Off
lF(off)"F(on)
Vcc
«r.tf
MsTyp
VlSO
Vac pk Mln
Mln
Max
Mln
Max
Industry
Motorola
H11L1
1.6
0.3
0.5
0.9
3.0
15
0.1
3535
7500
H11L2
10
0.3
0.5
0.9
3.0
15
0.1
3535
7500
MOC5007
1.6
0.3
0.5
0.9
3.0
15
0.1
7500
MOC5008
4.0
0.3
0.5
0.9
3.0
15
0.1
7500
MOC5009
10
0.3
0.5
0.9
3.0
15
0.1
7500
AC Input — Transistor Output — Style 8
Current Transter
VlSO
Ratio (CTR)
Volts ac Peak
VCE(sat)
V(BR)CEO
v F
% i
/ 'F
VCE
Industry
Volts ,
i 'f
•c
Volts e
mA
Volts
mA
Max
mA
H11AA1
20
±10
10
2500
7500
0.4
±10
0.5
30
1.5
±10
H11AA2
10
±10
10
2500
7500
0.4
±10
0.5
30
1.5
±10
AC Input — Linear Amplifier Output — Style 5
Transfer Gain
(V CC = 12 V)
mV/mA
Single Ended
Distortion
(V CC = 12 V)
(l si g = 1.0 mA)
^lyp
VlSO
MOC5010
200
0.2
7500
10
OPTOELECTRONICS — COUPLERS/ISOLATORS (continued)
Optocoupler Isolators (continued)
CASE 730A-01
Style 1 :
Pin 1. Anode
2. Cathode
3. NC
4. Emitter
5. Collector
6. Base
Style 3:
Pin 1. Anode
2. Cathode
3. NC
4. Emitter
5. Collector
6. NC
VDE Approved Optocouplers
Transistor Output — Style 1
Style 6:
Pin 1. Anode
2. Cathode
3. NC
4. Main Terminal
5. Substrate
6. Main Terminal
Current Transfer
Ratio (CTR)
VcE(sat)
«r. «fton. •off*
Typ
v F
VCE
Volts
~ mA
ic
mA
(IS
, ic
mA
vcc
Volts
Rl
a
V(BR)CEO
Volts
Vo ' ,s r5)
if
1
ZJ
MOC601A
10
10
10
7500
0.5
50
2.0
8.0*
2.0*
10'
100"
30
1.5
10
MOC602A
20
10
10
7500
0.5
50
2.0
8.0*
2.0*
10'
100*
30
1.5
10
MOC603A
50
10
10
7500
0.5
50
2.0
8.0*
2.0*
10*
100*
30
1.5
10
MOC604A
100
10
10
7500
0.5
50
2.0
8.0'
2.0'
10*
100'
30
1.5
10
Darlington Output — Style 1
Current Transfer
Ratio (CTR)
VCE(sat)
t r , t,/t on , t ff*
Typ
v (BR)CEO
Volts
VF
% <<
Min
D 'F
mA
VCE
Volts
Volts (
Max
i 'f
mA
'C
mA
<
MS
D 'C
mA
VoTs
Volts
S
mA
Volts,
Max 1
|*
mA
MOC622A
100
10
10
7500
1.0
8.0
2.0
15760'
50'
10*
100*
200'
30
1.5
10
MOC623A
300
10
10
7500
1.0
8.0
2.0
1 5760*
50'
10*
100*
200*
30
1.5
10
MOC624A
500
10
10
7500
1.0
8.0
2.0
15760'
50'
10'
100*
200*
30
1.5
10
MOC625A
1000
10
10
7500
1.0
8.0
2.0
15760'
50'
10*
100*
200*
30
1.5
10
Darlington Output with No Base Connection — Style 3
Current Transfer
Ratio (CTR)
V
CE(sat)
t r , tf/t on , t ot f*
Typ
v (BR)CE0
Volts
v F
% t
Mln
i 'F
mA
VCE
Volts
Volts,
Max 1
mA
'C
mA
i
MS
i 'C
mA
vcc
Volts
Rl
n
'F
mA
V^ lts @ >F^
MOC626A
100
10
10
7500
1.0
8.0
2.0
15760*
50"
10*
100"
200*
30
1.5
10
MOC627A
300
10
10
7500
1.0
8.0
2.0
15760*
50*
10"
100*
200*
30
1.5
10
MOC628A
500
10
10
7500
1.0
8.0
2.0
15*/60*
50"
10"
100*
200*
30
1.5
10
MOC629A
1000
10
10
7500
1.0
8.0
2.0
15*60*
50"
10"
100*
200'
30
1.5
10
Triac Driver Output — Style 6
LED Trigger
Zero Crossing
Peak Blocking
Current, Ipj
(VTM = 3.0 V)
Inhibit Voltage
(at rated Ipr)
Surge Isolation
MOC633A
400
30
7500
10
MOC634A
400
15
7500
10
MOC635A
400
10
7500
10
MOC640A
400
30
40
7500
1000
MOC641A
400
15
40
7500
1000
11
Optoelectronics — Couplers/Interrupters
Slotted Couplers/Interrupter Modules
Slotted couplers consist of an infrared emitting diode facing
a photodetector in a molded plastic housing. A slot in the housing
between the emitter and the detector provides a means of in-
terrupting the signal. A wide selection of standard and custom
housings and detector functions is available. All IREDs and pho-
todetectors in the miniature Case 349 (see Silicon Photodetec-
tors) can be used in these housings.
Transistor Output (VmmcEO = 30 v )
Current Transfer
*on. toff*
Ratio (CTR)
VCE(sat)
Typ
v F
% S
V 'F
V C E
VoltS r,
i if
ic
V CC
if
Volts
@
if
Case
Max
mA
mA
MS
Volts
mA
Max
mA
MOC781 1
5.0
20
5.0
04
30
1.8
12 60
5.0
2.5K
30
1.8
50
354A
MOC7812
10
20
5.0
0.4
20
1.8
12 60
5.0
2.5K
30
1.8
50
Style 1
MOC7813
20
20
5.0
0.4
20
1.8
12/60
5.0
2.5K
30
1.8
50
MOC7821
5.0
20
5.0
0.4
30
1.8
12 60
5.0
2.5K
30
1.8
50
354
MOC7822
10
20
5.0
0.4
20
1.8
12 60
5.0
2.5K
30
1.8
50
Style 1
MOC7823
20
20
5.0
0.4
20
1.8
12 60
5.0
2.5K
30
1.8
50
Optoelectronics — Fiber Optic Components
Fiber Optic Devices
Motorola offers high performance Infrared Emitters and De-
tectors for fiber optic systems. Devices are available for systems
requiring greater than 100 MHz analog bandwidth over several
kilometers or requiring very low cost with up to 10 MHz band-
width over short distances.
The packages fit directly into standard fiber optic connector
systems. All devices are spectrally matched to minimum atten-
uation regions of most fiber optic cables.
The Fiber Optic Low Cost System (FLCS) package houses
infrared emitters and detectors and has a molded lens which
efficiently couples the light to and from the cable. The package
is complete with the fiber alignment and locking mechanism and
the means for attaching to a board.
Infrared Emitters
Designed as infrared sources for fiber optic systems. MFOE200 is compatible with AMP #227015; MFOE1200, MFOE1201 and
MFOE1202 are compatible with AMP #228756-1 and Amphenol #905-138-5001 receptacles.
Total
Out
mW
Power
put
Woff
ns
X
nm
Case
MFOE71
3.5
100
25
820
363-01
Style 1
(FLCS)
MFOE200
3.0
100
250
940
209-02
Style 1
MFOE1200
MFOE1201
MFOE1202
0.9
1.5
2.4
100
100
100
(>70 MHz bw)
(>100 MHz bw)
(>100 MHz bw)
820
820
820
210A-01
Style 1
Case 209-02
Style 1 :
Pin 1 . Anode
2. Cathode
Case 210A-01
TO-206AC
(TO-52)
Style 1 :
Pin 1 . Anode
2. Cathode
3. Case
FLCS
CASE 363-01
Style 1 :
Pin 1 . Anode
2. Cathode
I
Style 2:
Pin 1. Emitter
2. Collector
Style 3:
Pin 1 . Cathode
2. Anode
12
OPTOELECTRONICS — FIBER OPTIC COMPONENTS (continued)
Fiber Optic Devices (continued)
FLCS
CASE 363-01
L
Style 1 : Style 2: Style 3:
Pin 1 . Anode Pin 1 . Emitter Pin 1 . Cathode
Case 82-04
Style 1 :
Pin 1. Emitter
2. Base
3. Collector
Case 210A-01
TO-206AC
(TO-52)
Style 1:
Pin 1 . Anode
2. Cathode
Case 209-02
Style 1:
Pin 1 . Anode
2. Cathode
Case 210C-01
TO-206AC
(TO-52)
VCC
Data Output
ml Case2l0D-0i
"ll (TO-52 Type)
Style 1 :
Pin 1. -V out
2- +V out
3. Ground/Case
Photodetectors
Designed for detection of infrared radiation in fiber optic sys- #227015. The MFOD1 100 thru 2405 are compatible with AMP
terns and provide a variety of output configurations. The #228756-1 and Amphenal #905-138-5001 receptacles.
MFOD1 00/200/300 are compatible with AMP connector
Responslvlty
Response Time
//sTyp
V(BR)
Volts
Min
Device
"?" W @
Typ
X
nm
ton*
•r
'oft*
«f
Case
Photo PIN Diodes
MFOD71
0.2
820
1 .0* ns
1 .0' ns
100
363-01
Style 3
(FLCS)
MFOD100
0.05
900
1.0" ns
1.0" ns
100
209-02
Style 1
210A-01
Style 1
MFOD1100
0.4
820
0.5 ns
0.5 ns
50
Phototranslstors
MFOD72
160
820
10-
60*
30
363-01
Style 2
(FLCS)
MFOD200
18
900
2.5
4.0
30
82-04
Style 1
MFOD2202
110
820
2.5
4.0
40
210C-01
Style 1
Photodarllngton
MFOD73
10,000
820
125"
150-
60
363-01
Style 2
. (FLCS)
MFOD300
500
900
40
60
30
82-04
Style 1
MFOD2302
4000
820
40
60
30
210C-01
Style 1
Monolithic IDP
MFOD2404
MFOD2405
mV/fiW
35
4.5
820
820
0.035
0.010
0.035
0.010
Vcc Range
4.0-6.0
4.0-6.0
210D-01
Style 1
The ferruled plastic fib
functional replacements
Replacements for Discontinued Devices
plastic fiber optics package is being replaced by the standard, hermetic TO-206AC (TO-52) pai
for the discontinued devices are shown below.
Discontinued Device
Replacement
Discontinued Device
Replacement
MFOD104F
MFOD1100
MFOD405F
MFOD2405
MFOD110F
MFOD1100
MFOE106F
MFOE1200
MFOD202F
MFOD2202
MFOE107F
MFOE1201
MFOD302F
MFOD2302
MFOE108F
MFOE1202
MFOD404F
MFOD2404
13
Package Dimensions and Styles
All optoelectronic packages currently used by Motorola are completely specified for dimension, pinout, and function.
Case 730A-01 Optocouplers, 6-Pin DIP
l8l [51 181
o
MILLIMETERS
INCHES
DIM
MIN
MAX
MIN
MAX
A
813
8.89
3.320
350
fl
6.10
E 60
240
260
C
2.92
5.08
0.115
0.200
fl
0.41
0.51
J.U16
0.020
F
1.02
1.78
3.040
0.070
G
2.54
BSC
0.1
0BSC
J
0.20
0.30
noil
0.012
K
2.54
3.81
0.100
0.150
L
7.62
BSC
Q 300 BSC
M
00
150
00
150
M IB > > il 11 11 M
mmmwrnmi ■ : ■■ » 1
NOTES.
1. DIMENSIONS A AND B ARE DATUMS.
Z. \T\ IS SEATING PLANE.
3. POSIT IONAL TOLERAN CE S FOR LEAPS:
[$|0 0.1 3 (0.005)® I T T A(B)|B@1
4 DIMENSION L TO CENTER OF LEADS
WHEN FORMED PARALLEL.
5. DIMENSIONING AND TOLERANCING PER
ANSIY14 5, 1973.
Style 1 Transistors and Darlingtons, Resistor Darlington
PIN 1. ANODE 3. NC 5. COLLECTOR
2. CATHODE 4. EMITTER 6. BASE
Darlington
V
^»-0 4
Resistor Darlington
in H m
Style 3 Transistors and Darlingtons without Base Connection
Transistor
Darlington
PIN 1. ANODE
2. CATHODE
3. NC
4. EMITTER
5. COLLECTOR
6. NC
Style 5
Schmltt Trigger
AC
PIN t. ANODE
2. CATHODE
3. NC
4. OUTPUT
5. GROUND
6. V CC
14
PACKAGE DIMENSIONS AND STYLES (continued)
Style 6 Triac Drivers
PIN
1. ANODE
2. CATHODE
3. NC
4. MAIN TERMINAL
5. SUBSTRATE
6. MAIN TERMINAL
Zero Crossing Circuit
Style 7 SCR
PIN
LED ANODE
LED CATHODE
NC
SCR CATHODE
SCR ANODE
SCR GATE
Style 8 AC Input-Transistor Output
PIN 1. LED 1 ANODE/LED 2 CATHODE
2. LED 1 CATHODE/LED 2 ANODE
3. NC
4. EMITTER
5. COLLECTOR
6. BASE
1
1
I
f A
t \
7
; ■
STYLE 1:
TERM 1 EMITTER
2 COLLECTOR
STYLE 2:
TERM 1 ANODE
7 CATHODE
Case 81 A-06
•Case 81A-07
STYLE I:
PIN t. EMITTER
2. BASE
3. COLLECTOR
82-04
DIM
MILLIMETERS
INCHES
MIN
MAX
MIN
Max
A
5.31
5.84
0.209
230
B
452
4.95
0.178
0.195
C
6.48 1 0.180 ! 0.255
D
Ml
0.48 0.0)6 0.019
F
1.14
- | 0.045
G
2.54
BSC
0.100 BSC
H
0.99
1.17
0.039
0.046
J
e 3-
1.22
C.Q33
0.048
K
!2.70
C.500
L
3-35
4.01
0.132
0.158
M
45°
BSC
... «°BSC
STYLE I:
PIN 1. EMITTER
2. BASE
3. COLLECTOR
STYLE 3:
PIN 1. MAIN TERMINAL
2. MAIN TERMINAL
3. SUBSTRATE
[do nol conned)
82-05
NOTES
t. LEADS WITHIN .13 mm 1.005] RADIUS
OF TRUE POSITION AT SEATING
PLANE. AT MAXIMUM MATERIAL
CONDITION.
2. PIN 3 INTERNALLY CONNECTED TO
CASE.
Can dimensions same as
TO-206AA(TO-18).
15
(continued)
PACKAGE DIMENSIONS AND STYLES (continued)
«
—
DIM
MIUII
hiss
INCHES
WIN
MAX
MIN
WAX
A
1 98
234
078
0.092
C
1.22
1.47
0048
058
D
25
41
0010
0.016
F
0.10
15
004
mints
H
0.51
076
020
030
K
4 06
160
M
3°
7°
3»
7°
STYLE I:
PIN i EMITTER
2. COLLECTOR
STYLE 2:
PIN I. ANODE
2. CATHODE
INDEX BUTTON ON PACKAGE
BOTTOM IS 0.25/0.51 mm (0 010/0 0201
DIA S 0.06/0 13 mm (0.002/0.005) OFF
SURFACE.
173-01
SEATING /
PLANE
B
i
—ll—
I
I
K
I
PIN 1. ANODE
PIN 2 CATHODE
Case 209-01
— A—
|" "J
to
SEATING /
PLANE
I I.
K
1
STYLE 1:
PIN 1. ANODE
2. CATHODE
Case 209-02
DIM
MILLIMETERS
INCHES
MIN
MAX
MIN
MAX
A
5.31
5.84
0.203
0.230
B
4.52
495
178
0.195
C
5.08
635
U.200
250
D
0.4)
0.48
0016
0.019
F
0.51
1.02
020
040
6
2 54 esc
D 100 BSC
H
0.99
1.17
0.039
0.04G
J
0.84
1.22
0.033
0.O48
K
12.70
500
L
3.35
4.01
132
0.158
M
450 BSC
45° BSC
NOTES:
1 PIN 2 INTERNALLY CONNECTED
TO CASE
2 LEADS WITHIN 13 mm (0.DO5)
RADIUSOF TRUE POSITION AT
SEATING PLANE AT MAXIMUM
MATERIAL CONDITION
Can dimensions same as
TO-206AA (TO-18).
SEATING
PLANE
210-01
STYLE 1
PIN 1 ANODE
2 CATHODE
NOTES
1 PIN 2 INTERNALLY CONNECTED
TO CASE
2 LEAOSWITHIN013IL 005)
RADIUS OF TRUE POSITION
AT SEATING PLANE AT MAXIMUM
MATERIAL CONDITION.
DIM
MILLIMETERS
INC
he:.
MAX
MAX
A
-St-
5 84
3 209
230
S
4 3;
In
: -3<
c
4 V
h 13
rac
:: :
B
0.41
*B
oms
ogis
G
2.54 BSC
■.. ■ D
BSC
H
0.95
1 17
039
■:i ; ,.',s
J
0.84
1 ll
033
0.048
K
12 70
■ SjC
4;- i$:
* z
BSC
Case 210A-01
PIN 1 ANODE
2 CATHODE
3 CASE
NOTES
1 PIN 3 IN t ERNALL Y CONNECTED
TO CASE
2 LEAD POSITIONAL TOLERANCE AT
SEATI NG PLANE
f»Ti"i m iQ-014) el tJa e 1 h q|
3 DIMENSIONS A AND H ARE OATUMS
AND T IS A DATUM PLANE
Case 210C-01
STYLE I:
PIN I. V CC
7 DATA OUTPUT
3. GROUND CASE
NOTES
1 DIMENSIONS AAND H ARE DAT U MS
AND T IS A DATUM SUHFACE
2. LEAD POSITIONAL TOLERANCE AT
SEATING PLANE:
03b (0 0141 Q| T I A 3i|h-2 I
3 DIMENSIONING AND TOLtRANCINC
1 M
MILLIMETERS
INCHES
MIN
mm
MIN
MAX
A
530
5 »
209
0.212
B
4 64
Jci
:
: ifi
C
3 42
3 60
c -u
D
40
Ztt
001B
.. ; . :
B
: m
BSC
0.10
BSC
H
0.91
1 16
m
0.046
J
63
1 21
0.033
0.048
K
■; ?c
0.500
M
45°
BSC
s:.
STYLE 1:
PIN t. -V 0UT
2 *V 0UT
3. GROUND CASE
NOTES.
1. DIMENSIONS A AND H ARE DATuMS
AND T ISA DATUM SURFACE
2. LEAD POSITIONAL TOLERANCE AT
SEATING PLANE
[♦W 0036 to 014)01 tI a0| hq ;
3 DIMENSIONING AN D TO L E R AN C I N G
DIM
MILLIMETERS
INCHES
MIN
MAX
MIN
MAX
A
5 30
$38
209
0212
B
4.6*
4 EG
1 133
1B5
C
3.42
:■ a
0135
D l«
0.40
0.48
016
0019
G
2.54 BSC
0.100 8SC
H
0.91
1.16
Li 03 b
a ..1.11.
J
0.83
1.21
0.033
K
1270
500
M
45° asc
■-r- AS
16
PACKAGE DIMENSIONS AND STYLES (continued)
Cross-Reference
The following cross-reference is meant to serve as a sub-
stitution guide for existing competitive devices to Motorola's
optoelectronic product line.
Motorola's nearest equivalent devices are selected on the
basis of general similarity of electrical characteristics and
mechanical configuration. Interchangeably in particular ap-
plications is not guaranteed. Before using a substitute, please
compare the detailed specifications of the substitute device
to the data sheet of the original device.
In the event the device we recommend does not exactly
meet your needs, we encourage you to refer to the Selector
Guide for another device from the same line source which
will have similar characteristics, or contact your nearest dis-
tributor or Motorola sales office for further information.
CODE
A = Direct Replacement
B = Minor Electrical Difference
C = Minor Mechanical Difference
D = Significant Electrical Difference
E = Significant Mechanical Difference
Industry
Device
Motorola
Equivalent
BP101
MRD3050
C
BP 102
MRD3050
C
BPW14
MRD300
A
BPW15
MRD602
A
BPW24
MRD701
E
BPW30
MRD360
A
BPX25A
MRD370
A
BPX25
MRD300
A
BPX29A
MRD370
A
BPX29
MRD310
A
BPX37
MRD300
A
BPX38
MRD3055
A
BPX43
MRD300
A
BPX58
MRD300
A
BPX59
MRD360
A
BPX62-1
MRD601
A
BPX62-2
MMD602
A
BPX62-3
MRD603
A
BPX62-4
MRD604
A
BPY62
MRD3055
A
CL100
MLED930
B
CL110
MLED930
A
CL110A
MLED930
A
CL110B
MLED930
B
CLI-2
4N38
B
CLI-3
4N35
B
CLI-5
4N26
A
CLI-10
4N33
B
CLR2050
MRD3050
A
CLR2060
MRD360
A
CLR2110
MRD310
A
CLR2140
MRO310
A
CLR2150
MRO300
A
CLR2160
MRO300
A
CLR2170
MRO370
A
CLR2180
MRO360
A
CLT3020
MRD601
A
CLT3030
MRD602
A
CLT3160
MRD603
A
CLT3170
MRO604
A
CLT4020
MRD601
E
CLT4030
MRD602
E
CLT4060
MRD603
E
CLT4070
MRD604
E
CNY17
CNY17
A
CNY18
4N25
A
CNY21
4N25
E
CQY10
MLED930
B
CQY1 1 , B, C
MLED930
B
CQY12, B
MLED930
B
CQY13
4N26
B
CQY14
4N25
B
CQY15
4N26
B
CQY31
MLED930
B
CQY32
MLED930
B
CQY40, 41
4N26
A
CQYSO
MOC1005
B
EP2
4N26
B
EPY62-1
MRD3055
A
EPY62-2
MRD3056
A
1 M
Industry
Motorola
Device
Equivalent
EPY62-3
MRD310
A
FCD810.A
4N28
A
FCD810, B, C, D
4N28
A
FCD820, A
TIL116
A
FCD820. B
TIL116
A
FCD820, C, D
TIL116
A
FCD825. A
TIL117
B
FCD825, B
TIL117
B
FCD825.C, D
TIU 17
B
FCD830, A
TIL116
B
FCD830, B
TIL116
B
FCD830, C, D
TIL116
B
FCD831, A
TIL116
B
FCD831, B
TIL116
B
FCD831, C. D
TIL116
B
FCD836
4N28
B
FCD836, C, D
4N28
B
FCD850, C. D
4N29
B
FCD855, C, D
H11B255
A
FCD860, C. D
Special
FPE100
MLED930
A
FPE410
MLED930
B
FPE500
MLED930
B
FPE520
MFOE200
D
FPT120, C
MRD300
B
FPT400
MRD360
A
FPT500, A
MRD300
A
FPT510
MRD3054
A
FPT510. A
MRD3055
A
FPT520
MRD300
A
FPT520A
MRD300
B
FPT530A
MRD300
A
FPT450A
MRD300
B
FPT550A
MRD300
B
FPT560
MRD300
B
FPT570
MRD360
A
GG686
MRD300
B
GS101
MRD601
A
GS103
MRO601
A
GS161
MRD601
A
GS163
MRD601
A
GS165
MRD604
A
GS167
MRD604
A
GS201
MRD601
E
GS203
MRD601
E
GS261
MRD601
E
GS263
MRD601
E
GS265
MRD604
E
GS267
MRD604
E
GS501
MRD604
E
GS503
MRD601
E
GS561
MRD601
E
GS567
MRD604
E
GS600. 3, 6, 9. 10
MRD300
A
GS612
MRD3050
A
GS670
MRD3050
A
GS680
MRD300
A
GS683
MRD300
A
GS686
MRD300
A
H11A1
H11A1
A
Industry
Motorola
^ evlce
Equivalent
Code
H11A2
H11A2
A
H11A3
H11A3
A
H11A4
H11A4
A
H11A5
H11A5
A
H11A520
H11A520
A
H11A550
H11A550
A
H11A5100
H11A5100
A
H74A1
4N26
B
H11AA1
H11AA1
A
H11AA2
H11AA2
A
H11B1
H11B1
A
H11B2
H11B2
A
H11B3
H11B3
A
H11B255
H11B255
A
H11C1, 2, 3
H11C1. 2. 3
A
H11C4, 5. 6
MOC3020
DE
H11D1. 2, 3. 4
H11D1.2, 3,4
A
H11G1. 2, 3
H11G1, 2, 3
A
H11J1
MOC3011 H11J1
A
H11J2
MOC3010/H11J2
A
H11J3
MOC3011/H11J3
A
H11J4
MOC3010/H11J4
A
H11J5
H11J5
A
H11L1
MOC5007/H11L1
A
H11L2
MOC5009/H11L2
A
H21A1
MOC7811/H21A1
A
H21A2
MOC7812/H21A2
A
H21A3
MOC7813/H21A3
A
H22A1
MOC7821/H22A1
A
H22A2
MOC7822.H22A2
A
H22A3
MOC7823/H22A3
A
H74C1
H74C1
A
H74C2
MOC3020
DE
IL1
IL1
A
IL5
4N25
B
IL12
IL12
A
IL1S
IL15
A
Lta
IL16
A
IL74
IL74
A
IL250
H11AA1
A
ILA30
4N33
B
ILA55
4N33
B
ILCA2-30
MCA230
A
ILCA2-55
H11B255
A
IRL40
MLED930
B
L8, L9
MRD3011
D
L14F1
MRD360
A
L14F2
MRD370
A
L14G1
MRD300
A
L14G2
MRD310
A
L14G3
MRD310
A
L14H1
MRD701
DE
L14H2
MRD701
DE
L14H3
MRD701
DE
L14H4
MRD701
DE
L15E
MRD603
A
L15A
MRD602
A
L15AX601
MRD601
A
L15AX602
MRD602
A
L15AX603
MRD603
A
18
CROSS-REFERENCE (continued)
L15AX604
MRD604
A
LED56. F
MLED930
A
MCA11G1
H11G1
A
MCA11G2
H11G2
A
MCA230
MCA230
A
MCA231
MCA231
A
MCA255
MCA255
A
MCP3009
MOC3009
A
MCP3010
MOC3010
A
MCP301 1
MOC301 1
A
MCP3020
MOC3020
A
MCP3021
MOC3021
A
MCP3022
MOC3022
A
MCS2
MCS2
A
MCS2400
MOC3020
DE
MCT2
MCT2
A
MCT2E
MCT2E
A
MCT26
MCT26
A
MCT271
MCT271
A
MCT272
MCT272
A
MCT273
MCT273
A
MCT274
MCT274
A
MCT275
MCT275
A
MCT277
MCT277
A
IVIk^ I ttUU
A
MPT?9f)1
I c.£.\J P
A
MF0D1 100
E
MF0D1 04F
MF0D1 100
E
Mcnm mF
iviri^Lj i i ur
MFnm 1 nn
E
MFOD202F
MFOD2202
E
MFOD302F
MFOD2302
E
MFOD404F
MFOD2404
E
MFOD405F
MFOD2405
E
MFOE102F
MF0E1 200
E
MF0E1 03F
MF0E1 200
E
MFOE106F
MFOE1200
E
MFOE107F
MFOE1201
E
MFOE108F
MFOE1202
E
MLED92
MLED71
E
MLED93
MLED71
E
MLED94
MLED71
E
MLED95
MLED71
E
MOC1000
4N26
A
MOC1001
4N25
A
MOC1 002
4N27
A
MOC1 003
4N28
A
MOC1 200
4N29
A
MRD14B
MRD71 1
E
OP123
MLED910
A
0P1 24
MLED910
A
OP130
MLED930
A
OP131
MLED930
A
OP600
MRD601
A
OP601
MRD601
A
OP602
MRD602
A
OP603
MRD603
A
OP604
MRD604
A
OP640
MRD601
A
OP641
WRD601
A
OP642
MRD602
A
OP643
MRD602
A
OP644
MRD603
A
OP800
ivi n uoujj
A
OP801
MRmosn
iv i n ujuju
A
OP802
MRD310
A
OP803
MRD300
A
OP804
MRD300
A
OP805
MRD300
OP830
MRD300
A
OPI110
MOC1005
DE
OPI2150
4N28
A
OPI2151
4N28
A
OPI2152
4N26
A
OPI2153
TIL117
A
OPI2250
4N28
A
OPI2251
4N28
A
OPI2252
4N26
A
OPI2253
TIL1 17
A
OPI2500
H11AA1
A
OPI3009
MOC3009
A
OPI3010
MOC3010
A
OPI301 1
MOC301 1
A
OPI3012
MOC3012
A
OPI3020
MOC3020
A
OPI3021
MOC3021
A
OPI3022
MOC3022
A
OPI3023
MOC3023
A
OPI3150
4N33
A
OPI3151
4N33
A
OPI3250
4N33
A
OPI3251
4N33
A
OPI4201
H11C1
A
OPI4202
H11C3
A
OPI5000
H11A520
A
OPI5010
H11A520
A
OPI6000
MOC8204
A
OPI6100
MOC8205
A
PC503
4N26
A
SCS1 1 C 1
H11C1
A
SCSI 1C3
H11C3
A
SD1 440-1 .-2.-3.-4
MRD3050
DE
SD2440-1
MRD601
A
SD2440-2
MRD602
A
SD2440-3
MRO603
A
SD2440-4
MRD604
A
SD2441-1
MRD602
A
SD2441-2
MRD603
A
SD2441-3
MRD604
A
SD2441-4
MRD604
B
SD3420-1 .-2
MRD510
A
SD5400-1
MRD370
A
SD5400-2
MRD360
A
SD5400-3
MRD360
A
SD5420-1
MRD500
A
SD5440-1
MRD3052
A
SD 5440-2
MRD3056
A
SD5440-3
MRD300
A
SD5440-4
MRD300
B
SD5442-1.-2.-3
MRD300
B
SE1 450 series
MLED930
E
SE2450 series
MLED910
B
SE2460 series
MLED910
B
SE5450 series
MLED930
A
SE5451 series
MLED930
B
SG1001 series
MLED910
B
SPX2
4N35
A
SPX2E
4N35
A
SPX4
4N35
A
SPX5
4N35
A
SPX6
4N35
A
SPX26
4N27
A
SPX28
4N27
A
SPX35
4N35
A
SPX36
4N35
A
SPX37
4N35
A
SPX53
H1 1 A550
A
SPX103
4N35
A
SPX1872-1
MOC7821 H22A1
c
SPX1872-2
MOC7821 H22A1
c
SPX1873-1
MOC781 1 H21A1
c
SPX1873-2
MOC781 1 H21A1
c
SPX1 876-1
MOC781 1 H21A1
SPX1 876-2
MOC7811 H22A2
c
SPX2762-4
MOC7822 H22A2
c
SPX7271
CNY17-1
A
SPX7272
CNY17-2
A
SPX7273
CNY17-3
A
SSL4, F
MLED930
B
SSL34. 54
MLED930
B
STPT20
MRD604
A
STPT21
MRD601
A
STPT25
MRD603
A
STPT51
MRD3050
A
STPT53
MRD3056
A
STPT60 series
MRD601 series
A
STPT80
MRD3056
A
STPT81
MRD3052
A
STPT82
MRD3053
A
STPT83
MRD3054
A
STPT84
MRD3056
A
STPT260
MRD360
A
STPT300
MRD300
A
STPT310
MRD360
C
TIL23
MLED910
A
TIL24
MLED910
B
TIL31
MLED930
B
TIL33
MLED930
B
TIL34
MLED930
A
TIL63
MRD3050
A
TIL64
MRD3050
A
TIL65
MRD3052
A
TIL66
MRD3054
A
TIL67
MRD3056
A
TIL81
MRD300
A
TIL111
TIL111
A
TIL1 12
TIL112
A
TIL1 13
TIL113
A
TIL1 14
TIL114
A
TIL115
TIL115
A
TIL1 16
TIL116
A
TIL1 17
TIL117
A
TIL1 18
TIL118
A
TIL1 19
TIL119
A
TIL124
TIL124
A
TIL125
TIL125
A
TIL126
TIL126
A
T1L127
TIL127
A
T1L128
TIL128
A
TIL153
TIL153
A
TIL154
TIL154
A
TIL155
TIL155
A
TIL156
TIL156
A
TIL157
TIL157
A
TIL601
MRD601
A
TIL602
MRD602
A
TIL603
MRD603
A
TIL604
MRD604
A
TLP501
4N27
B
TLP503
4N25
B
TLP504
4N25
B
1N5722
MRD601
A
1 N5723
MRD602
A
1 N5724
MRD603
A
1 N5725
MRD604
A
2N5777
MRD71 1
DE
2N5778
MRD71 1
DE
2N5779
MRD711
DE
2N5780
MRD711
DE
2N25, A
4N25. A
A
4N26
4N26
A
4N27
4N27
A
4N28
4N28
A
4N29. A
4N29, A
A
4N30
4N30
A
4N31
4N31
A
4N32. A
4N32, A
A
4N33
4N33
A
4N35
4N35
A
4N36
4N36
A
4N37
4N37
A
4N38. A
4IM38, A
A
4N39
4N39
A
4N40
MOC3020
DE
5082-4203
MRD500
A
5082-4204
MRD500
A
5082-4207
MRD500
A
5082-4220
MRD500
A
19
MOTOROLA SEMICONDUCTOR SALES OFFICES ■ EUROPE and AFRICA
AUSTRIA
Motorola Ges.m.b.H.
AiserbacbsKasse 30 — a- 1090 Wian
Tel (0232) 65 01 26
DENMARK
Motorola A/S
Gladsanevei 370 — 2660 Soborg
Tel. (01)67 44 22
FRANCE
Motorola Sam I conduct aura S A
Main Sales Olfice
15-17. avenue de Segur - 75007 Pans
Tel. 555 91 01
Sales Olllca
Chemin da Mai ache r-Zirsl — 33240 Meylan (Grenoble)
Tal. (76)90 22 81
Sales Olflce
Zone artlsanale — 35740 Pace
Tel. (99) 60 65 48
Sales Office
Aven ue G 4n£< al - El se n h owe r
31023 Toulouse Cadet — Tel. (61) 411 11 SB
WEST GERMANY
Motorola GmbH, Geschaltsbereich H Bible iter
Main Sales Olllce
Arabella-Slrasse 17 — 8000 Munchen SI
Tel. (089) 92 720
Sales Offices
Hans-BOckler Strasse 30
3012 Langenhagen — Hannover
Tel. (0511) 76 20 37/36
Sales Olllce
Vl/nsbetgersliasse 43 — 6500 Nu'nberg
Tel. (0911)6 57 61
Sales Oflice
Sfalsundet-SKasse 1 — 7032 Smdelfingen
Tel (0703) 18 30 74/75
Sales Oltice
Abraham-Lincoln-Sliasse 26 - 6200 Wiesbaden
Tel. (06121) 76 19 21
Motorola B.V Semiconductor Division
Maarssenbioeksedijk 37 — 3606 AG Maarssen
Tel (030J 44 38 06
Mulorola S.p.A, Divisions Semlcondullorf
Main Sales Otlice
Centre MilanolloriSlraoa 2-C2
20090 Assago (Milano) — Tel. 824 20 21 (S lines)
Sales Olllce
Via del Barrocclo 2 — 40138 Bologna
Tel. (051) 53 34 46
Sales Ollice
Via Costanlino Maes 5i — 00162 Roma
Tel B31 47 46
Molorola Norway AJS
Nils Hansens Vel 4. Brvn -
Ta! (02| 64 63 60
SOUTH AFRICA
Molorola South Alrlca ifty) Lid.
5lh Street. Wynberg, Transvaal
P.O. So. 39566. Bramlcy, 2018
Tel 786-1139. 786-1149
SPAIN
Motorola Espana S.A.
Albert Alcocei. 46 Apdn -
Tel. 457 62 04
SWITZERLAND
Motorola (Schwa 1 1| AG
Main Sales Oflice
UillkonersU 9 — 6952 Sctllieien
Tel. (Oil 730 40 74
Sales Ollice
16, chemin de la Voie-Creuse
P.O. Bo» 8 - 1211 Geneve 20 Tel. (022|99 11 i
UNITED KINGDOM
Motorola Ltd.
Main Sales Office
York House. Empire Way — Wembley Middles
Tel. (01)902 68 36
Sales Office
Coiviiies Road, Kelvin Esiaia
Easl Kilbride, Scotland - Tel. (36521 3 9i 0:
Marketing Olfice
88 Tanners Drive. Blakelands
Milton Keynes MKI4 5BP - Tel (4*906) 61 46 14
HEADQUARTERS EUROPEAN OPERATIONS
SWITZERLAND
Molorola I no-
European Semiconductor Olvislon
16. chemin de la Voie-Creuse
P.O. Bon 6 - 1211 Geneve 20 - Tel. (022199 11 I
MOTOROLA SEMICONDUCTOR DISTRIBUTORS - EUROPE and AFRICA
* Verlrinbs GmbH
SPOEHLE ELECTRONIC KG
Schwieoerdingen - Tel (07150)36 21
SPOERLE ELECTRONIC KG
Hamourg — Tel 1040) M 60 68
ESPECTRAL.
mtos de Eleclrortiea a Clenlill
T-l (19) 210 34 20
ELECDIS HUGO. AH Eft GmbH
0ISTRIBUTOREN 1NTERELKO APS
Karlslunde — Tel (03) 14 07 00
DANELEC ELECTRONIC APS
Sootwro - Tel. (01)69 05 11
FINLAND
FIELD OY
Helsinki - Tel. (60) 692 25 7
FRANCE
ALFATRONIC (Main Olflce)
Asnieres - Tel (Oil 731 44 44
ALFATRONIC
Lyon - Tel (7) 695 14 12
ALFATRONIC
Rennes - Tel (99)5313 33
CEL0IS S.A. (Main Office)
Gentllly - Tel (01)586 13 13
CELDIS SJt.
Nancy - Tel f9l34i 26 01
ETS. F. FEUTRIER S.A. (Main Olllce)
Sl-Priosl-en Jarej (Sl-Ellenne) - Te.'. (77) 74 67 33
ETS. F. FEUTRIER S.A.
Carneui — Tel. (421 82 16 41
ETS. F. FEUTRIER
Toulouse - Tel. (61) 62 34 72
ETS. F. FEUTRIER
Bordeam — Tel (56) 39 51 21
FEUTRIER ILE DE FRANCE (Main OKica!
Suresnes — Tel (01) 772 46 46
FEUTRIER ILE 0E FRANCE
Saint- Andre-lei -Lille — Tel. (20)51 21 33
FEUTRIER ILE DE FRANCE
Villeluil - Tel. (011 678 27 27
FEUTRIER ILE DE FRANCE
Le RelecqKemuon - Tel. (98) 28 03 03
FEUTRIER ILE DE FRANCE
Names - Tel (40) 48 09 44
FEUTRIER ILE DE FRANCE
Rennes - Tel. (99) 30 35 78
S.C.A.1.8. S.A.
Rungis - Tel. (01) 687 23 13
S C. A. 1.8. S.A. (Rhone-Alposl
Lyon — Tel (71 883 40 50
S.C.A.I.B, Eleclraniqoe Ouast
SCI EN TECH
PailS - Tel. (1)609 91 36
STE COMMERCIALE TOUTELECTRIC (Main Olllce)
Toulouse - Tal. (61|62 11 33
STE COMMERCIALE TOUTELECTRIC
Bordeaux - Tel (56) 86 50 31
GERMANY
DISTRON GmbH ft Co. (Main Office}
Berlin - Tel (0301 342 10 41 / 45
EBV Elaktionlk Vertriebs-GmbN (Main Oflice)
Unierhachtng - Tel (069) 61 10 51
EBV Eleklronik Vertriebs-GmbH
Burgwerlel-Hannovei - Tel (051)39 45 70
JERMYN GmbH
MUTRON, MULLEfi GmbH ft Co.
NordeiSledl — Tel. (0401 527 36 77
MUTRON. MULLER GmbH ft Co.
Wurzburg — Tel 10931) 5 29 44/6
L NEVE -
Quid
n - Tel. (04 10
NIK GmbH (Main Office)
A. NEYE - ENATECHNIK GmbH
Oarmstadt - Tel. (06151) 2 64 46
A. NEYE - ENATECHNIK GmbH
Slultgarl - Tel (0711) 760 04 57
A. NEYE — ENATECHNIK GmbH
Munchen — Tel (069) 47 30 23
SASCO Verlrieb von eleklronischen Bauelementen GmbH
(Main Olflce)
Pulibrunn b Miinehen — Tel (0891 461 11
SASCO Verlrieb von eleklronischen Bauelementen GmbH
Dorlmund — Tel (0231) 57 92 06/9
SASCO Vartrleb von eleklronischen Bauelementen GmbH
Nurnberg — Tel (0911120 42 52/3
SASCO Verlrieb von eleklronischen Bauelemonlen GmbH
Stuilgarl — Tel (07t t| 24 45 21
SASCO Verlrieb von eleklronischen Bauelementen GmbH
Frankfurt - Tel (061 1) 61 03 91
SASCO Vert riob von elektronlsetien Bauelemenlen GmbH
Hannover — Tel. (05111 87 20 13/4
SPOERLE ELECTRONIC KG (Main Ollice)
Draieieh b. Frankfurt - Tel. (06103) 30 40
SPOERLE ELECTRONIC KG
Donmund - Tel. (0231) 57 93 15
SPOERLE ELECTRONIC KG
Munetien — Tel (069) 22 74 17
B.V. DIODE
Ulreehl - Tel. (0301 68 42 14
MANUOAX NEDERLANO B.V.
Heeswijk (N.B.) — Tel ;04i) 39
ITALY
A DEL SI S.p.A. (Main Olfice)
Milano - Tel. (02) 452 46 51
A DEL SI S.p.A.
floma - Tel. (08) 5915417
ADELSI S.p.A.
Torino - Tel. (011) 539141/543175
(ADELSI S.A.) S.I.D.E. :SFIL
Bologna - Tel (051126792/222516
ADELSI S.p.A
Genova — Tel <Q10> 589674/581761
ADELSI S.p.A.
ADELSI S.p.A.
Padova — Tel (049) 45600/45778
CELDIS ITALIANA S.p.l,. (Main Office)
Clnisello Balsamo — ToL (02) 612 00 41 (5 Hi
CELDIS ITALIANA S.p.A.
floma - Tel. (06) 42 3D 55
CELDIS ITALIANA S.p./L
Bologna - Tel (051) 53 33 36
CELDIS ITALIANA S.p.4.
Torino — Tel. (011) 35 93 12
CELDIS ITALIANA S.p.i
Padova - Tel. (049) 77 21 35
CRAMER ITALIA S.p.A. iMelri Office)
florna — Tel. (06) 51 79 61 (10 lines)
CRAMER ITALIA S.p.A
Milano - Tel. (02) 80 93 26 (4 lines)
CRAMER ITALIA S.p.A
Bologna - Tel (051) 37 27 77 (3 llnesl
CRAMER ITALIA S.p.A
Torino - Tel. (01 1) 619 :!0 62
CRAMER ITALIA S.p.A
Napoli - Tel (0811 63 51 43
SILVERSTAR LTD. S.p.A. (Main Oflice)
Milano - Tel 102) 49 96 (12 lines)
SILVERSTAR LTD. S.p.A.
Roma — Tel. (06) 844 66 41 (5 lines)
SILVERSTAR LTD. S.p.A.
Torino — Tel. (01 1) 44 3i! 7516
SILVERSTAR LTD. S.p.A.
Padova — Tel. (049) 22 S3 S
HEFRO TEKNISH AIS
Oslo - Tel (02) 36 02 HI.
OLA TANDBERG ELEKTRO A
Oslo - Tel (02) 19 70 3(1
SOUTH AFRICA
STANDARD TELEPHONE AND CABLES
Boksbu'g - Tel. (Oil) 52 6311
ADVANCED SEMICONDUCTOR DEVICES
Johann«sourg — Tel. (01 1) 602 4107
SPAIN
COMELTA
Madrid - Tel. (01) 754 30 01
SONELCO S.A.
Madtid - Tel. (01) 409 46 34
KONTRON S.A.
Madz<d - Tel 729 11 55
SWEDEN
ITT MULTIKOMPONENT
Solna — Tel (08) 8300 20
AS GOSTA BACK STROM
Stockholm — Tel. (06) 54 10
TRACO AS.
i 13 21 6
SWITZERLAND
- Tel 1056) 27 01 21
UNITED KINGDOM
AXIOM ELECTRONICS LTD
High Wycombe - Tel 10494) 44 21 81
CELDIS LTD.
Heading - Tel. (0734) 585 171
GOTHIC CRELLON
Slough - Tel (082861 44 34
HAWKE ELECTRONICS LTD.
Sun bury on Thames
Tel (01i 979 77 99
JERMYN DISTRIBUTION
Sevenoaks — Tel. (0732) 45 01 4
MACRO MARKETING LTD.
Slough - Tel. (06286) 4422
NEW TEK DISTRIBUTION LTD.
Cambridge — Tel. (0954| 8
STC ELECTRONIC SERVICES
Harlow - Tel (0279) 26 777
THAME COMPONENTS LTD.
Thame — Tel. (084) 42 t 3t 46
THE RADIO RESISTOR CO. LTD.
- TeM
I B8
YUGOSLAVIA
ELEKTROTEHNA LJUBLJANA
Ljubljana - Tel (61)34 77 49
ELEKTROTEHNA LJUBLJANA
Beograd - Tel. (HI 69 69 24
i mm
IWOTOROL A Semiconductor ProM k
Avenue General-Eisenhower - 31023 Toulouse CEDEX - FRANCE